Integral Anti-Rollback for Injection Molded Tape Dispensers

ABSTRACT

A tape dispenser system includes a monolithic plastic injection molded frame with an integral anti-reverse rotation pawl. To help prevent the free end of a roll of tape from accidentally retracting, falling back, and frustratingly bonding onto the coiled portion of the tape, the pawl engages the inner diameter of a cardboard spool that holds the roll of tape. Strategically located mold parting lines and certain air gaps allow injection molding of a dispenser frame that has two spool-supporting sidewalls plus the integral pawl.

FIELD OF THE DISCLOSURE

The present disclosure relates to adhesive tape dispensers for handlinga roll of tape and more specifically to plastic injection moldeddispensers with integral means for preventing the end of the tape fromaccidentally falling back onto the roll.

BACKGROUND

Some pressure-sensitive adhesive tapes come preloaded in a plastic tapedispenser. One example of such tape is sometimes referred to aspackaging tape, packing tape, shipping tape, box-sealing tape or parceltape. Packaging tape is often made of about a two-inch wide strip ofpolypropylene or polyester film with a pressure-sensitive adhesivecoating on one side of the film. The tape is usually wound upon acardboard spool with the adhesive side of the film facing inward towardthe spool. Consumers and businesses often use packaging tape for sealingcardboard boxes. Depending on the cost, durability and design of thedispenser, some plastic tape dispensers are reusable while others aremore disposable.

SUMMARY

The tape dispenser system disclosed herein helps prevent the free end ofa roll of tape from accidentally falling back onto the coiled portion ofthe tape. This is accomplished with at least one anti-reverse rotationpawl that is a seamless integral extension of a monolithic tapedispenser frame. The pawl being an integral extension of the frameitself avoids or minimizes the use of moving parts, and thus avoids orreduces assembly costs and frictional wear. In some examples, the frameis plastic injection molded with a parting line that is strategicallypositioned to enable the frame to have two spool-supporting sidewallsthat provide the roll of tape with greater support.

In one aspect, a tape dispenser system is provided that includes a firstsidewall; a second sidewall spaced apart from the second sidewall todefine a spool-receiving chamber between the first sidewall and thesecond sidewall; a bridge providing an integral seamless connectionbetween the first sidewall and the second sidewall; a first flangeextending from the first sidewall toward the second sidewall, the firstflange defining an air gap between a first segment of the first flangeand a second segment of the first flange; a second flange extending fromthe second sidewall toward the first sidewall; a spool havingselectively an installed position and a removed position, the spoolbeing radially supported by the first flange and the second flangewithin the spool-receiving chamber when the spool is in the installedposition, the spool being outside of the spool-receiving chamber whenthe spool is in the removed position, the spool being tubular and havingan axial length and an inner surface; an adhesive tape wrapped aroundthe spool; and a first pawl extending from at least one of the firstsidewall and the first flange, the first pawl having a first tip that isspaced apart from both the first sidewall and the second sidewall, thefirst tip engaging a point of contact on the inner surface of the spoolwhen the spool is in the installed position, the first tip being betweenthe air gap and the point of contact on the inner surface of the spoolwhen the spool is in the installed position.

In another aspect, a tape dispenser system is provided that includes afirst sidewall; a second sidewall spaced apart from the second sidewallto define a spool-receiving chamber between the first sidewall and thesecond sidewall; a bridge extending from the first sidewall to thesecond sidewall, the bridge having a tape-discharge edge; a first flangeextending from the first sidewall toward the second sidewall; a secondflange extending from the second sidewall toward the first sidewall; aspool having selectively an installed position and a removed position,the spool being radially supported by the first flange and the secondflange within the spool-receiving chamber when the spool is in theinstalled position, the spool being outside of the spool-receivingchamber when the spool is in the removed position, the spool having anaxial length and an inner diameter; an adhesive tape wrapped around thespool; a first pawl extending from at least one of the first sidewalland the first flange, the first pawl having a first tip that is spacedapart from both the first sidewall and the second sidewall, the firsttip engaging the inner diameter of the spool when the spool is in theinstalled position; a first side member being comprised of the firstsidewall, the first flange and the first pawl; a second side memberbeing comprised of the second sidewall and the second flange; and amonolithic frame being comprised of the first side member, the secondside member and the bridge; the monolithic frame being configuredselectively to a relaxed position, a splayed position, and a loadedposition; the first pawl being at a first distance from the secondsidewall when the monolithic frame is in the relaxed position; the firstpawl being at a second distance from the second sidewall when themonolithic frame is in the splayed position; the first pawl being at athird distance from the second sidewall when the monolithic frame is inthe loaded position; the second distance being greater than the firstdistance; the second distance being greater than the third distance; thesecond distance providing sufficient clearance for the spool to be movedbetween the installed position and the removed position; the monolithicframe being in the relaxed position when the spool is in the removedposition; and the monolithic frame being in the loaded position when thespool is in the installed position.

In another aspect, a tape dispenser method involves the use of a firstmold block, a second mold block, and a plastic material, wherein thetape dispenser method includes the first mold block defining a firstcavity system; the second mold block defining a second cavity system;forcing the first mold block and the second mold block together suchthat the first mold block and the second mold block engage each other ata mold interface; upon forcing the first mold block and the second moldblock together, the first cavity system and the second cavity systemcreating a total cavity; injecting the plastic material into the totalcavity; solidifying the plastic material in the total cavity, therebycreating a tape dispenser frame comprising a first sidewall, a firstflange on the first sidewall, a second sidewall, a second flange on thesecond sidewall, a bridge extending between the first sidewall and thesecond sidewall, and a first pawl extending from at least one of thefirst sidewall and the first flange; the first sidewall at leastmomentarily extending into both the first cavity system and the secondcavity system; the second sidewall at least momentarily extending intoboth the first cavity system and the second cavity system; removing thetape dispenser frame from the total cavity; resiliently splaying thefirst sidewall and the second sidewall to widen a spool-receivingchamber between the first sidewall and the second sidewall; insertingthe spool into the spool-receiving chamber; at least one of the firstsidewall and the second sidewall flexing toward the spool; the firstflange and the second flange supporting the spool; and the first pawlengaging an inner diameter of the spool such that the spool can rotatemore freely in one direction than in an opposite direction.

The above summary is not intended to describe each disclosed embodimentof every implementation of the present invention. The brief descriptionof the drawings and the detailed description which follows moreparticularly exemplify illustrative embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front-left-top perspective view an example tape dispensersystem constructed in accordance with the teachings disclosed herein.

FIG. 2 is a cross-sectional view taken along line 2-2 of FIG. 4.

FIG. 3 is a cross-sectional view similar to FIG. 3 but showing aninstalled roll of tape in phantom lines.

FIG. 4 is a back view of FIG. 1.

FIG. 5 is a back view similar to FIG. 4 but showing an installed spoolwith no tape and with part of the spool cut away.

FIG. 6 is an enlarged view similar to FIG. 7 but showing the spool inthe process of being installed.

FIG. 7 is an enlarged view of encircled section-7 of FIG. 5.

FIG. 8 is a top view of FIG. 8 with the frame in a relaxed position.

FIG. 9 is a top view similar to FIG. 8 but showing the frame in asplayed position about to receive the spool.

FIG. 10 is a top view similar to FIGS. 8 and 9 but showing the frame ina loaded position.

FIG. 11 is a schematic diagram showing an example tape dispenser methodin accordance with the teachings disclosed herein.

FIG. 12 is a schematic diagram showing another phase of the method shownin FIG. 11.

FIG. 13 is a schematic diagram showing yet another phase of the methodshown in FIG. 11.

FIG. 14 is a cross-sectional view of two example mold blocks producingan example pawl in accordance with the teaching disclosed herein.

FIG. 15 is a schematic diagram similar to FIG. 12 but showing anotherexample tape dispenser method in accordance with the teachings disclosedherein.

DETAILED DESCRIPTION

In the following description, reference is made to the accompanying setof drawings that form a part of the description hereof and in which areshown by way of illustration several specific embodiments. It is to beunderstood that other embodiments are contemplated and may be madewithout departing from the scope or spirit of the present invention. Thefollowing detailed description, therefore, is not to be taken in alimiting sense.

FIGS. 1-10 show various views and configurations of an example tapedispenser system 10 comprising a plastic injected molded frame 12 forsupporting a coil of adhesive tape 14 wrapped around a spool 16. Toprevent a free end 18 of tape 14 from accidentally retracting andadhering back onto a coiled portion 20 of tape 14, frame 12 includes atleast one integral pawl 22 (e.g., a first pawl 22 a and second pawl 22b) for inhibiting reverse rotation of spool 16. Arrow 24 of FIG. 3represents the direction of inhibited reverse rotation, and arrow 26represents the permitted forward direction of rotation during normaluse. To inhibit reverse rotation, a tip 28 of pawl 22 engages an innerdiameter 30 or inner surface 32 of spool 16 at a favorable rake angle 34(e.g., between about five and twenty degrees), and a spring arm 36 ofpawl 22 presses tip 28 radially outward against spool 16 at a desirablepressure.

In some examples, spool 16 is a cardboard tube having an axial length 38and inner surface 32. Tape 14 is made of a polypropylene or polyesterfilm with a pressure-sensitive adhesive coating 40 on an underside ofthe film. Such tape is sometimes known as packaging tape, packing tape,box-sealing tape or parcel tape.

In the illustrated example, tape dispenser system 10 comprises a firstside member 42, a second side member 44 and a bridge 46 that provides anintegral seamless connection between side members 42 and 44. In someexamples, first side member 42 comprises a first sidewall 48, a firstflange 50 extending inwardly from first sidewall 48, and first pawl 22 aextending from first flange 50 and/or from first sidewall 48. Likewise,second side member 44 comprises a second sidewall 52, a second flange 54extending inwardly from second sidewall 52, and second pawl 22 bextending from second flange 54 and/or from second sidewall 52.Sidewalls 48 and 52 are spaced apart in an axial direction 56 to createa spool-receiving chamber 58 (FIG. 9) between sidewalls 48 and 52.

In some examples, to make frame 12 completely functional yet soinexpensive that some might consider it to be disposable, bridge 46 andside members 42 and 44 are plastic injection molded as a seamlessunitary piece, whereby frame 12 is monolithic. Frame 12 being aseamless, monolithic piece makes it maintenance-free and quick and easyto manufacture. Although frame 18 can be made of various materials, someexample frame materials are chosen so as to address the tape dispenser'svarious and sometimes conflicting design requirements. For some examplesof tape dispenser system 10, the design requirements include, frame 12having sufficient structural strength and stiffness to support a spool atape, frame 12 being sufficiently flexible for loading or replacing aspool of tape between two side members 42 and 44, pawl 22 being stiffenough to exert enough gripping pressure against spool 16, pawl 22 beingsufficiently flexible to accommodate radial movement and dimensionalvariance of spool 16, and pawl 22 providing an appropriate coefficientof friction at a point of contact 60 where tip 28 of pawl 22 engagesinner surface 32 or inner diameter 30 of spool 16. To accomplish allthis, some examples of frame 12 are plastic injection molded of ABS(acrylonitrile butadiene styrene).

Additional features of some examples of tape dispenser system 10 includea semi-flexible tongue 64, a series of ribs 66, an air gap 68 betweentwo flange segments 50 a and 50 b of flange 50, a pair oftape-supporting ledges 70, a lead-in surface 72 at the pawl's tip 28, atape-discharge edge 74 on bridge 46, a serrated blade 76 for cuttingtape 14 near tape-discharge edge 74, one or more blade-holding features78, multiple contact points 80 and 82 for supporting spool 16 in aradial direction, and a mold parting line 84 extending generally in alongitudinal direction 86 between a rotational axis 88 of spool 16 andan edge line 90 defined by tape-discharge edge 74. Tongue 64 can be usedas a frictional brake pad for momentarily holding the roll of tape. Ribs66 provide the equivalent of a flat contact surface against the axialends 92 of spool 16 even if sidewalls 48 and 52 do not lie parallel toeach other. Air gap 68 provides mold clearance for facilitating plasticinjection molding of pawl 22 without interfering with flange 50 or 54.After blade 76 cuts off tape 14, ledges 70 prevent the tape's free end18 from falling back onto the roll of tape, which works well if the rollof tape is kept from rotating backwards. Lead-in surface 72 at thepawl's tip 28, as shown in FIGS. 6 and 7, engages an inner axial edge 94of spool 16 to help guide spool 16 into its installed position. Lead-insurface 72 is neither parallel nor perpendicular to rotational axis 88.Although lead-in surface 72 is tapered and straight in the illustratedexample, other examples of lead-in surface 72 are tapered and curved.Blade-holding features 78, in some examples, are integral pins orprotrusions of frame 12. Features 78 protrude into or otherwise engageholes or other mating features in blade 76 to help align and restrainblade 76 relative to tape-discharge edge 74. Contact points 80 and 82along with the pawl's tip 28 establish the location of the spool'srotational axis 88. In addition or as an alternative to pawl 22, someexamples of contact points 80 and/or 82 are in the form of a pawl-likeelement that provides or enhances the anti-reverse rotation function oftape dispenser system 10. Parting line 84 extending generally inlongitudinal direction 86 makes it possible to injection mold amonolithic frame with side members 42 and 44 that provide ample supportat both ends of spool 16. With this design, side members 42 and 44provide spool support in both axial direction 56 and in a radialdirection (perpendicular to axial direction 56), thus avoiding the useof alternative weaker structures such as a cantilever design.

Pawl 22, spool 16 and frame 12 have multiple selective configurations orpositions. Pawl 22 is movable between a disengaged position (FIGS. 1, 2and 4) and an engaged position (FIGS. 3 and 7). In the disengagedposition, the pawl's tip 28 is spaced apart from spool 16. In theengaged position, the pawl's tip 28 engages spool 16 at the point ofcontact 60 on an inner diameter 30 or inner surface 32 of spool 16. Pawl22 has a base 96 that connects to sidewall 48 and/or to flange 50. Pawl22 extending from base 96 to tip 28 creates spring arm 36 that pressesthe pawl's tip 28 radially outward against the spool's inner surface 32.Tip 28 is spaced apart from both sidewalls 48 and 52 to facilitate aplastic injection process of making frame 12 and to provide pawl 22 withthe freedom to flex without interference from neither sidewall 48 nor52. With reference to a radial direction (i.e., perpendicular to axis 88and axial direction 56), tip 28 is between point of contact 60 and airgap 68 to further facilitate a plastic injection molding process.

Spool 16 is movable between a removed position (FIG. 9) and an installedposition (FIGS. 3, 5, 7 and 10). In the removed position, spool 16 isspaced apart from frame 12 and is outside of spool-receiving chamber 58.In the installed position, spool 16 is situated within spool-receivingchamber 58, engaged with pawl 22 and supported by side members 48 and52. Arrow 98 of FIG. 6 represents pawl 22 automatically moving from itsdisengaged position toward its engaged position in response to thespool's inner axial edge 94 sliding along lead-in surface 72 as spool 16moves from its removed position toward its installed position, asindicated by arrow 100.

To install or remove spool 16, frame 12 is movable selectively to arelaxed position (FIGS. 1, 2, 4, and 8), a splayed position (FIG. 9),and a loaded position (FIGS. 3, 5, 7 and 10). In the relaxed position,pawl 22 a is a first distance 102 from sidewall 52, as shown in FIG. 8.To install spool 16, as shown in FIG. 9, sidewalls 48 and 52 areresiliently spread apart to place pawl 22 a at a second distance 104from sidewall 52, wherein second distance 104 provides sufficientclearance for spool 16 to enter spool-receiving chamber 58. Once spool16 is installed within spool-receiving chamber 58, sidewalls 48 and 52are released to allow sidewalls 48 and 52 to move inward to where pawl22 a is at a third distance 106 from sidewall 52, as shown in FIG. 10.In some examples, third distance 106 is slightly greater than firstdistance 102 so that during normal operation sidewalls 48 and 52 applylight axial pressure against spool 16. In some examples, first distance102 is substantially equal to third distance 106, which eases theinstallation and removal of spool 16. In the illustrated example, seconddistance 104 is greater than both first distance 102 and third distance106, which helps ensure that spool 16 remains within spool-receivingchamber 58′ during normal operation. In examples that include two pawls22 a and 22 b on separate sidewalls 48 and 52, second pawl 22 b isspaced apart from first pawl 22 a by a pawl separation distance 108 thatis greater when spool 16 is in the installed position than when spool 16is in the removed position, thereby ensuring that both pawls 22 a and 22b engage spool 16 while spool 16 is held snugly between sidewalls 48 and52.

FIGS. 11-13 schematically illustrate an example tape dispenser method110 for making frame 12 by way of a plastic injection molding machine112. In this example, machine 112 comprises a plastic injection ram 114,a first mold block 116 defining a first cavity system 118 a, and asecond mold block 120 defining a second cavity system 118 b. Arrows 122and 124 represent forcing first mold block 116 and second mold block 120together such that first mold block 116 and second mold block 120 engageeach other at a mold interface 126. FIG. 12 shows that upon forcing moldblocks 116 and 120 together, first cavity system 118 a and second cavitysystem 118 b create a total cavity 118. Arrows 128 and 130 representinjecting a plastic material 132 (e.g., molten or softened ABS) intototal cavity 118. Arrows 134 represent solidifying the plastic material132 in total cavity 118, thereby creating tape dispenser frame 12. FIG.12 shows first sidewall 48 at least momentarily extending into bothcavity systems 118 a and 118 b. FIG. 12 also shows second sidewall 52 atleast momentarily extending into both cavity systems 118 a and 118 b.FIG. 12 also shows flanges 50 and 54 at least momentarily extending intoboth cavity systems 118 a and 118 b. While FIG. 3 shows frame 12defining the spool's rotational axis 88, FIG. 12 shows mold interface126 creating parting line 84 on first sidewall 48, wherein parting line84 extends between bridge 46 and rotational axis 88, as shown in FIG. 1.FIG. 1 also shows parting line 84 being substantially perpendicular torotational axis 88. In some examples, sidewall 52 includes an innersurface 52 a facing sidewall 48 and an outer surface 48 b facing awayfrom sidewall 48, and parting line 84 is on the sidewall's outer surface52 b.

Arrow 136 of FIG. 13 represents removing tape dispenser frame 12 fromtotal cavity 118. Arrows 138 of FIG. 9 represents resiliently splayingfirst sidewall 48 and second sidewall 52 to widen spool-receivingchamber 58 between first sidewall 48 and second sidewall 52. Arrow 140of FIG. 9 represent inserting spool 16 into spool-receiving chamber 58.Arrows 142 of FIG. 10 represent first sidewall 48 and/or second sidewall52 flexing toward spool 16. FIGS. 3, 5 and 10 show first flange 50 andsecond flange 54 supporting spool 16. FIGS. 3, 5 and 7 show first pawl22 engaging the spool's inner diameter 30 such that spool 16 can rotatemore freely in one direction 26 than in an opposite direction 24.

In some examples, pawl 22 is of a shape that facilitates a plasticinjecting molding process. Referring back to FIGS. 4-7, pawl 22 includesbase 96, a first edge 144 and a second edge 146. Base 96 adjoins firstsidewall 48, and first edge 144 (with respect to axial direction 56) isbetween first sidewall 48 and second edge 146. First edge 144 extendslengthwise from base 96 to tip 28, and second edge 146 (with respect toaxial direction 56) is between first edge 144 and second sidewall 52.Second edge 146 extends lengthwise from base 96 to tip 28, and firstedge 144 and second edge 146 converge from base 96 to tip 28.

In some examples, as shown in FIG. 14, pawl 22 includes a first surface148 and a second surface 150, wherein first surface 148 at leastmomentarily lies against a first mold block 116′, and second surface 150at least momentarily lies against a second mold block 120′. This resultsin a mold interface 126′ creating a sharp parting line 152 at the pawl'stip 28 and thus at a point of contact 60 where pawl 22 engages thespool's inner diameter 30. In some examples, the spool's tip 28 beingsharp enhances the pawl's ability to “bite” into the spool's innersurface 32 and thus more effectively resist reverse rotation of spool16.

FIG. 15 illustrates an example tape dispenser method 154 using adual-injection process for making frame 12 with the pawl's tip 28 beingsofter and more flexible than sidewall 48. In some examples, tip 28being relatively soft or rubbery increases the coefficient of frictionbetween tip 28 and the spool's inner surface 32. The increased frictioncan improve the pawl's ability to resist reverse rotation of spool 16while the pawl's greater flexibility enables pawl 22 to yield to thespool's forward rotation. The term, “dual injection” refers to anyplastic injection molding process where the finished product iscomprised of two different plastic injected materials. Examples of knowndual injection processes include, but are not limited to, co-injectionmolding, multishot molding, overmolding, two-shot molding, two-timesinjection molding, and insert molding. In some examples, a singleplastic injection molding machine 156 includes one ram 158 for injectinga thermoplastic elastomer or thermoset elastomer for the pawl's tip 28and another ram 160 for injecting a thermoplastic or thermoset plasticfor the rest of frame 12. Arrow 162 represents injecting a first basematerial 164 to create at least part of first sidewall 48, and arrow 166represents injecting a second softer material 168 to create at leastpart of first pawl 22 (e.g., tip 28 of pawl 22).

It should be noted that all references cited in this disclosure,including U.S. Pat. Nos. 8,925,611; 8,813,806; 8,191,597; 8,042,592;7,370,782; 7,353,854 are herein incorporated by reference in theirentirety. Also, for further clarification, it should be further notedthat the term, “pawl,” refers to any finger, tab, bar or other elongatemember that in reaction to being urged to move in a first directionacross and relative to an adjacent surface, the elongate member tends tobind against the adjacent surface with more binding force in the firstdirection than in an opposite direction, wherein the adjacent surfacecan be of any geometry including, but not limited to, smooth, irregular,cogged, toothed, curved, etc. The term, “flange,” refers to anyprotrusion extending at least partially from one sidewall toward anothersidewall. The term, “bridge,” as it pertains to first and secondsidewalls, refers to any structural member that extends from the firstsidewall to the second sidewall, thereby spanning the distance betweenthe two sidewalls. The term, “monolithic,” as it pertains to a structuremeans that the structure is a seamless unitary piece. A structure madeusing a common plastic injection molding process is one example of amonolithic structure. The term, “mold parting line,” refers to asubstantially linear step, offset or other discontinuity between twoadjoining surfaces, wherein such a step, offset or discontinuity wouldbe considered, by those of ordinary skill in the art, as actually beingor at least resembling a surface imperfection that is typicallycharacteristic of an imperfect or intentional interface between twoplastic injection mold halves. In some examples, a mold parting lineoccurs along the interface between two adjoining surfaces of a part,wherein the two surfaces are slightly non-parallel (e.g., less than fivedegrees), which can be due (but not necessarily due) to a draft anglethat facilitates removal of the part from a plastic injection mold. Theterm, “radial” refers to a direction generally perpendicular to thespool's rotational axis 88 when spool 16 is in the installed position.The term, “axial” refers to a direction generally parallel to thespool's rotational axis 88 when spool 16 is in the installed position.While spool 16 being in the installed position defines rotational axis88, that defined rotational axis, by definition, remains fixed in spacerelative to bridge 46 even if spool 16 is later moved from the installedposition to the removed position. The term, “converging,” as it pertainsto two edges means that the distance between the two edges becomesprogressing less over the length of the edges; however, the edges do notnecessarily intersect each other.

In addition or alternatively, some examples of tape dispenser system 10are defined as a tape dispenser system comprising: first sidewall 48;second sidewall 52 spaced apart from first sidewall 48 to define aspool-receiving chamber 58 between first sidewall 48 and second sidewall58; bridge 46 providing an integral seamless connection between firstsidewall 48 and second sidewall 52; spool 16 disposed withinspool-receiving chamber 58; adhesive tape 18 wrapped around spool 16;and first pawl 22 a having a base 96, tip 28, first edge 144 and secondedge 146, the base 96 adjoining first sidewall 48, tip 28 engaging spool16, first edge 144 being between first sidewall 48 and second edge 146,first edge 144 extending lengthwise from base 96 to tip 28, second edge146 being between first edge 144 and second sidewall 52, second edge 146extending lengthwise from base 96 to tip 28, and first edge 144 andsecond edge 146 converging from base 96 to tip 28.

Various modifications and alterations to this invention will becomeapparent to those of ordinary skill in the art without departing fromthe scope and spirit of this invention. It should be understood thatthis invention is not intended to be unduly limited by the illustrativeembodiments and examples set forth herein and that such examples andembodiments are presented by way of example only with the scope of theinvention intended to be limited only by the claims set forth herein asfollows.

1. A tape dispenser system comprising: a first sidewall; a secondsidewall spaced apart from the second sidewall to define aspool-receiving chamber between the first sidewall and the secondsidewall; a bridge providing an integral seamless connection between thefirst sidewall and the second sidewall; a first flange extending fromthe first sidewall toward the second sidewall, the first flange definingan air gap between a first segment of the first flange and a secondsegment of the first flange; a second flange extending from the secondsidewall toward the first sidewall; a spool having selectively aninstalled position and a removed position, the spool being radiallysupported by the first flange and the second flange within thespool-receiving chamber when the spool is in the installed position, thespool being outside of the spool-receiving chamber when the spool is inthe removed position, the spool being tubular and having an axial lengthand an inner surface; an adhesive tape wrapped around the spool; and afirst pawl extending from at least one of the first sidewall and thefirst flange, the first pawl having a first tip that is spaced apartfrom both the first sidewall and the second sidewall, the first tipengaging a point of contact on the inner surface of the spool when thespool is in the installed position, the first tip being between the airgap and the point of contact on the inner surface of the spool when thespool is in the installed position.
 2. The tape dispenser system ofclaim 1, wherein the spool defines a rotational axis when the spool isin the installed position, the first pawl includes a lead-in surfaceadjacent to the first tip, the lead-in surface faces away from the firstsidewall, the lead-in surface is angularly displaced out ofperpendicular alignment with the rotational axis, the lead-in surface isangularly displaced out of parallel alignment with the rotational axis,and the lead-in surface is in guiding contact with an inner axial edgeof the spool as the spool moves from the removed position to theinstalled position.
 3. The tape dispenser system of claim 1, wherein thespool defines a rotational axis when the spool is in the installedposition, the bridge includes a tape-discharge edge defining an edgeline substantially parallel to the rotational axis, the first sidewallincludes an inner surface facing the second sidewall, the first sidewallincludes an outer surface facing away from the second sidewall, and theouter surface has a mold parting line extending lengthwise between theedge line the rotational axis of the spool when the spool is in theinstalled position.
 4. The tape dispenser system of claim 1, wherein thefirst sidewall, the second sidewall and the bridge provide a frame thatis configured selectively to a relaxed position, a splayed position, anda loaded position; the first pawl being at a first distance from thesecond sidewall when the frame is in the relaxed position; the firstpawl being at a second distance from the second sidewall when the frameis in the splayed position; the first pawl being at a third distancefrom the second sidewall when the frame is in the loaded position; thesecond distance being greater than the first distance; the seconddistance being greater than the third distance; the second distanceproviding sufficient clearance for the spool to be moved between theinstalled position and the removed position; the frame being in therelaxed position when the spool is in the removed position; and theframe being in the loaded position when the spool is in the installedposition.
 5. The tape dispenser system of claim 1, further comprising asecond pawl extending from at least one of the second sidewall and thesecond flange, the second pawl being spaced apart from the first pawl agreater distance when the spool is in the installed position than whenthe spool is in the removed position.
 6. The tape dispenser system ofclaim 1, wherein the first tip of the first pawl is softer than thefirst sidewall.
 7. A tape dispenser system comprising: a first sidewall;a second sidewall spaced apart from the second sidewall to define aspool-receiving chamber between the first sidewall and the secondsidewall; a bridge extending from the first sidewall to the secondsidewall, the bridge having a tape-discharge edge; a first flangeextending from the first sidewall toward the second sidewall; a secondflange extending from the second sidewall toward the first sidewall; aspool having selectively an installed position and a removed position,the spool being radially supported by the first flange and the secondflange within the spool-receiving chamber when the spool is in theinstalled position, the spool being outside of the spool-receivingchamber when the spool is in the removed position, the spool having anaxial length and an inner diameter; an adhesive tape wrapped around thespool; a first pawl extending from at least one of the first sidewalland the first flange, the first pawl having a first tip that is spacedapart from both the first sidewall and the second sidewall, the firsttip engaging the inner diameter of the spool when the spool is in theinstalled position; a first side member being comprised of the firstsidewall, the first flange and the first pawl; a second side memberbeing comprised of the second sidewall and the second flange; and amonolithic frame being comprised of the first side member, the secondside member and the bridge; the monolithic frame being configuredselectively to a relaxed position, a splayed position, and a loadedposition; the first pawl being at a first distance from the secondsidewall when the monolithic frame is in the relaxed position; the firstpawl being at a second distance from the second sidewall when themonolithic frame is in the splayed position; the first pawl being at athird distance from the second sidewall when the monolithic frame is inthe loaded position; the second distance being greater than the firstdistance; the second distance being greater than the third distance; thesecond distance providing sufficient clearance for the spool to be movedbetween the installed position and the removed position; the monolithicframe being in the relaxed position when the spool is in the removedposition; and the monolithic frame being in the loaded position when thespool is in the installed position.
 8. The tape dispenser system ofclaim 7, wherein the spool defines a rotational axis when the spool isin the installed position, the first pawl includes a lead-in surfaceadjacent to the first tip, the lead-in surface faces away from the firstsidewall, the lead-in surface is angularly displaced out ofperpendicular alignment with the rotational axis, the lead-in surface isangularly displaced out of parallel alignment with the rotational axis,and the lead-in surface is in guiding contact with an inner axial edgeof the spool as the spool moves from the removed position to theinstalled position.
 9. The tape dispenser system of claim 7, wherein thespool defines a rotational axis when the spool is in the installedposition, the first sidewall includes an inner surface facing the secondsidewall, the first sidewall includes an outer surface facing away fromthe second sidewall, and the outer surface has a mold parting lineextending in a direction from the bridge toward the rotational axis ofthe spool when the spool is in the installed position.
 10. The tapedispenser system of claim 7, wherein the first flange comprises a firstflange segment and a second flange segment that define an air gapbetween the first flange segment and the second flange segment, and thefirst pawl is disposed between the air gap and the inner surface of thespool when the spool is in the installed position.
 11. The tapedispenser system of claim 7, wherein the first pawl includes a base, afirst edge and a second edge, the base adjoining the first sidewall, thefirst edge being between the first sidewall and the second edge, thefirst edge extending lengthwise from the base to the first tip, thesecond edge being between the first edge and the second sidewall, thesecond edge extending lengthwise from the base to the first tip, and thefirst edge and the second edge converging from the base to the firsttip.
 12. The tape dispenser system of claim 7, further comprising asecond pawl extending from at least one of the second sidewall and thesecond flange, the second pawl being spaced apart from the first pawl agreater distance when the spool is in the installed position than whenthe spool is in the removed position.
 13. The tape dispenser system ofclaim 7, wherein the first tip of the first pawl is softer than thefirst sidewall.
 14. A tape dispenser method involving the use of atleast one of a first mold block, a second mold block and a plasticmaterial, the tape dispenser method comprising: the first mold blockdefining a first cavity system; the second mold block defining a secondcavity system; forcing the first mold block and the second mold blocktogether such that the first mold block and the second mold block engageeach other at a mold interface; upon forcing the first mold block andthe second mold block together, the first cavity system and the secondcavity system creating a total cavity; injecting the plastic materialinto the total cavity; solidifying the plastic material in the totalcavity, thereby creating a tape dispenser frame comprising a firstsidewall, a first flange on the first sidewall, a second sidewall, asecond flange on the second sidewall, a bridge extending between thefirst sidewall and the second sidewall, and a first pawl extending fromat least one of the first sidewall and the first flange; the firstsidewall at least momentarily extending into both the first cavitysystem and the second cavity system; the second sidewall at leastmomentarily extending into both the first cavity system and the secondcavity system; removing the tape dispenser frame from the total cavity;resiliently splaying the first sidewall and the second sidewall to widena spool-receiving chamber between the first sidewall and the secondsidewall; inserting the spool into the spool-receiving chamber; at leastone of the first sidewall and the second sidewall flexing toward thespool; the first flange and the second flange supporting the spool; andthe first pawl engaging an inner diameter of the spool such that thespool can rotate more freely in one direction than in an oppositedirection.
 15. The tape dispenser method of claim 14, wherein the firstpawl includes a first surface and a second surface, wherein the firstsurface at least momentarily lies against the first mold block, and thesecond surface at least momentarily lies against the second mold block.16. The tape dispenser method of claim 14, wherein the mold interfacecreates a parting line on the first pawl.
 17. The tape dispenser methodof claim 14, wherein the mold interface creates a parting line on thefirst pawl at a point where the first pawl engages the inner diameter ofthe spool.
 18. The tape dispenser method of claim 14, furthercomprising: the tape dispenser frame defining a rotational axis aboutwhich the spool can rotate relative to the tape dispenser frame; and themold interface creating a parting line on the first sidewall, whereinthe parting line extends between the bridge and the rotational axis, andthe parting line is substantially perpendicular to the rotational axis.19. The tape dispenser method of claim 14, wherein the plastic materialincludes a first base material and a second softer material, and thetape dispenser method further comprising: injecting the first basematerial to create at least part of the first sidewall; and injectingthe second softer material to create at least part of the first pawl.20. The tape dispenser method of claim 14, further comprising: the firstflange at least momentarily extending into both the first cavity systemand the second cavity system; and the second flange at least momentarilyextending into both the first cavity system and the second cavitysystem.